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Mini digester and biogas production from plant biomass

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The aim of the paper is to present the construction of a mini digester for biogas production from different agriculture plant biomass and other organic wastes. The amount of biogas production (methane) is observed by the mini digester. Design/methodology/approach: The mini digester consisting of twelve units was built and some measurements with agriculture plant biomass were performed according to DIN 38414 part 8. Four tests simultaneously with three repetitions can be performed. Findings: With the mini digester the amount of biogas production is observed. The parameters such as biogas production and biogas composition from maize and sugar beet silage in certain ratio were measured and calculated. The highest biogas and methane yield was 493 NI kg VS-1 or 289 NI CH4 kg VS-1. Research limitations/implications: The scope of substrates for the anaerobic digestion process is on the increase so the interest in the use of the biogas as a source of a renewable energy is very high. With mini digester it is possible to observe the amount of biogas (methane) production and so the most suitable plant giving the maximum methane yield, can be determined. Practical implications: The aim of biogas as renewable source of energy is to replace fossil fuels with sustainable energy production systems and to fulfil the requirements of the Kyoto Protocol. On big farms the liquid manure and different energy crops can be used for biogas production. That can improve the economical efficiency of the farm and reduce the CO2 emissions. Originality/value: Mini digester for biogas production was built as special equipment. The quality of produced biogas is determined with a gas analyser GA 45.
Słowa kluczowe
Rocznik
Strony
191--196
Opis fizyczny
Bibliogr. 23 poz., rys., tabl.
Twórcy
autor
autor
autor
autor
Bibliografia
  • [1] A. Iscia, G. N. Demirerb, Biogas production potential from cotton wastes, Renewable Energy 32 (2007) 750-757.
  • [2] D. P. Chynoweth, Biomethane from energy crops and organic wastes, Proceedings of the 10th World Congress ”Anaerobic Digestion”, Montreal – Canada, 2004, 525-530.
  • [3] C. Rozman, K. Pazek, M. Bavec, F. Bavec, J. Turk, D. Majkovic, The Multi-criteria analysis of spelt food processing alternatives on small organic farms, Journal of Sustainable Agriculture 28 (2006) 159-179.
  • [4] K. Möller, Systematic operation of biogas economy in ecologically farming: plant anatomy, household out coming and gas emissions, Biogas Journal 1 (2003) 20-29 (in German).
  • [5] B. Mursec, M. Janzekovic, F. Cus, U. Zuperl, Comparison of rollers after sowing of buckwheat, Journal of Achievements in Materials and Manufacturing Engineering 17 (2006) 269-272.
  • [6] D. P. Chynoweth, C. E. Turick, J. M. Owens, D. E. Jerger, M. W. Peck, Biochemical methane potential of biomass and waste feedstocks, Biomass Bioenergy 5 (1993) 95-111.
  • [7] M. Janzekovic, B. Mursec, F. Cus, A. Ploj, I. Janzekovic, U. Zuperl, Use of machines for liquid manure aerating and mixing, Journal of Materials Processing Technology 162-163 (2005) 744-750.
  • [8] P. A. Gerin, Energy and CO2 balance of maize and grass as energy crops, Bioresour Technology 4 (2007) 40-49.
  • [9] P. Weiland, Production and energetic use of biogas from energy crops and wastes in Germany, Applied Biochemistry and Biotechnology 109 (2003) 263-274.
  • [10] V. N. Gunaseelan, Anaerobic digestion of biomass for methane production, Biomass Bioenergy 13 (1997) 83-114.
  • [11] S. Rasi, A. Veijanen, J. Rintala, Trace compounds of biogas from different biogas production plants, Energy 32 (2007) 1375-1380.
  • [12] B. Kramberger, S. Klemencic, Effect of harvest date on the chemical composition and nutritive value of Cerastium holosteoides, Grass Forage Science 58 (2003) 12-16.
  • [13] A. Ploj, B. Mursec, F. Cus, U. Zuperl, Characterization of machines for processing of waste materials, Journal of Materials Processing Technology 175/1-3 (2006) 338-343.
  • [14] B. Mursec, F. Cus, Integral model of selection of optimal cutting conditions from different databases of tool makers, Journal of Materials Processing Technology 133 (2003) 158-165.
  • [15] F. Cus, J. Balic, Selection of cutting conditions and tool flow in flexible manufacturing system, Journal of Materials Processing Technology 118 (2001) 485-489.
  • [16] B. Mursec, P. Vindis, Constructing of mini digester for biogas production in laboratory, Tools in Worlds Globally Ability (2007) 245-250.
  • [17] T. Amon, B. Amon, V. Kryvoruchko, W. Zollitsch, K. Mayer, L. Gruber, Biogas production from maize and dairy cattle manure—Influence of biomass composition on the methane yield, Agriculture, Ecosystems and Environment 118 (2007) 173-182.
  • [18] P. Vindis, B. Mursec, M. Janzekovic, F. Cus, Processing of soybean meal into concentrates and testing for Genetically Modified Organism (GMO), Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 507-510.
  • [19] DIN 38 414, 1985. Determination of digestion behavior ‘‘sludge and sediments’’. Beuth Verlag, Berlin (in German).
  • [20] M. Janzekovic, B. Mursec, I. Janzekovic, F. Cus, P. Vindis, Applicability of polar sport tester for cattle heart rate measurements, Proceedings of the 12th International Scientific Conference “Contemporary Achievements in Mechanics, Manufacturing and Materials Science” CAM3S'2006, Gliwice - Zakopane, 2006 (CD-ROM).
  • [21] M. Kolar, D. Dobcnik, Chemically prepared silver electrode for determination of N-acetyl-L-cysteine by flow-injection potentiometry, Pharmazie 58 (2003) 25-28.
  • [22] P. Vindis, B. Mursec, C. Rozman, M. Janzekovic, F. Cus, Biogas production with the use of mini digester, Journal of Achievements in Materials and Manufacturing Engineering 28/1 (2008) 99-102.
  • [23] J. Kristl, M. Slekovec, Determination of vitamin C in lemon, grapefruit juices and in dried carrots by liquid chromatography, Agricultura 4 (2006) 23-26.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS2-0020-0078
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